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A Particle Is Said to Be in Static Equilibrium If

Question 96

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A particle is said to be in static equilibrium if the resultant of all forces applied to it is zero. Find the force F that must be applied to a particle to produce static equilibrium if there are two forces, each of 10 N, applied so that one acts A particle is said to be in static equilibrium if the resultant of all forces applied to it is zero. Find the force F that must be applied to a particle to produce static equilibrium if there are two forces, each of 10 N, applied so that one acts above the positive x-axis and the other acts below the positive x-axis. Give the magnitude of the resultant, in newtons, acting in the negative x direction. A) 10 B) 20 C) D) E) 40 above the positive x-axis and the other acts A particle is said to be in static equilibrium if the resultant of all forces applied to it is zero. Find the force F that must be applied to a particle to produce static equilibrium if there are two forces, each of 10 N, applied so that one acts above the positive x-axis and the other acts below the positive x-axis. Give the magnitude of the resultant, in newtons, acting in the negative x direction. A) 10 B) 20 C) D) E) 40 below the positive x-axis. Give the magnitude of the resultant, in newtons, acting in the negative x direction.


A) 10
B) 20
C) A particle is said to be in static equilibrium if the resultant of all forces applied to it is zero. Find the force F that must be applied to a particle to produce static equilibrium if there are two forces, each of 10 N, applied so that one acts above the positive x-axis and the other acts below the positive x-axis. Give the magnitude of the resultant, in newtons, acting in the negative x direction. A) 10 B) 20 C) D) E) 40
D) A particle is said to be in static equilibrium if the resultant of all forces applied to it is zero. Find the force F that must be applied to a particle to produce static equilibrium if there are two forces, each of 10 N, applied so that one acts above the positive x-axis and the other acts below the positive x-axis. Give the magnitude of the resultant, in newtons, acting in the negative x direction. A) 10 B) 20 C) D) E) 40
E) 40

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